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Goal 2

Goal 2. Bio.2.1 Analyze the interdependence of living organisms within their environments. Bio.2.2 Understand the impact of human activities on the environment (one generation affects the next). . Carbon Cycle. Photosynthesis: Absorbs Carbon Respiration: Releases carbon

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Goal 2

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  1. Goal 2 Bio.2.1 Analyze the interdependence of living organisms within their environments. Bio.2.2 Understand the impact of human activities on the environment (one generation affects the next).

  2. Carbon Cycle Photosynthesis: Absorbs Carbon Respiration: Releases carbon Decomposition: Releases carbon

  3. Carbon Dioxide and Greenhouse Effect • As carbon dioxide levels go up, temperatures rise. • Gases trap in the heat. • Carbon dioxide levels are rising due to • Less trees to absorb it. • Coal power plants releasing it. • Cars releasing it • Burning of any fossil fuel releases it.

  4. Greenhouse Effect • As temperatures go up, the following occurs • More severe weather • More droughts • Sea level rising which causes more floods • More insect borne diseases

  5. Nitrogen Cycle • All living things need nitrogen • Nitrogen is needed for amino acids and DNA. • Some places we have too much nitrogen and other places not enough. Plants can only intake nitrogen if it is a nitrate or ammonia.

  6. Nitrogen Cycle • Legumes: Plants such as beans that fix nitrogen. • Bacteria on roots of plants turn nitrogen into nitrates that a plant can use

  7. Nitrogen Cycle Off Balanced • Hog Waste contains a lot of nitrogen which will runoff and cause many problems: • Algae blooms lower the amount of oxygen in a lake and kill the fish. • High nitrate levels in drinking water cause blue baby syndrome • High nitrate levels cause pfiesteria (a dinoflagellate) to become deadly and cause fish kills. NC is #2 in the country for its amount of hogs!

  8. Energy Flow • Living systems require a continuous input of energy to maintain organization. • The input of radiant energy which is converted to chemical energy allows organisms to carry out life processes. • Within ecosystems energy flows from the radiant energy of the sun through producers and consumers as chemical energy that is ultimately transformed into heat energy. • Continual refueling of radiant energy is required by ecosystems.

  9. Food Chain • Food chains show the one way transfer of matter and energy in organisms. • Decomposers break down the final matter at the end of the chain. Ex: bacteria and fungi • ProducerPrimary Consumer Secondary Consumer • Producer or Autotroph: Example” plants • Consumer or Heterotroph: • Primary consumer: Eats plants: ex: grasshopper • Secondary Consumer: eats primary consumers: Ex: fish

  10. Food Webs and Energy Pyramids • Food webs are interweaving food chains. • Energy pyramids or pyramids of productivity • Show how energy is lost at each level. • Each organism gets only 10% of the energy from the organism before it. Grass: 10% Rabbit : 1% Snake : 0.1 % Fox : 0.01 %

  11. Biological Magnification • As we move down a food chain, the amount of energy decreases. • However, the amount of toxins or pesticides will increase. • Organisms at the top of the food chain will have the most toxins. This is called biological magnification. • Over time these toxins will be stored in the fatty tissues of the organisms. This is called bioaccumulation.

  12. Relationships • Mutualism: When both organisms benefit. • Example : sea anemone and clown fish • Parasitism: When one organism benefits and the other organism is harmed: Ex: Tick and dog

  13. Population Growth • Density Dependent Factors: Limiting factors that control the size of the population. Examples: amount of food, water, and resources • Carrying Capacity: The maximum amount of organisms that the population can support.

  14. Population Graphs Exponential Growth: Unlimited Resources Logistic Growth: Stabilizes around the carrying capacity.

  15. Human Population Graphs • Population Size= Birth Rate – Death Rate Death rate decreases due to technology and medicine Death rate increased during the Black Plague and wars

  16. Impact of disease on a population • AIDS: caused by the HIV virus • Influenza: flu virus • Kills more people each year than AIDS • Tuberculosis: caused by bacteria • Has evolved to become antibiotic resistant • Dutch Elm Disease: fungal infection on trees that is spread by a beetle. • INTRODUCED TO NC FROM EUROPE • Pfiesteria: Protist that has 20+ life forms and can kill fish.

  17. Population Size and Resources • More people= more pollution • More people = more deforestation = more habitat loss = more extinction • More deforestation-> habitat fragmentation • More people = more burning of fossil fuels for energy = more carbon dioxide= more global warming

  18. Human activities and the environment • Summarize how humans modify ecosystems through population growth, technology, consumption of resources and production of waste. • • Interpret data regarding the historical and predicted impact on ecosystems and global climate.

  19. What is happening to the temperature?

  20. NC Ecosystems: Acid Rain Acid Rain: nitric acid or sulfuric acid Has a pH less than 5.6 Main source of it in NC: coal power plants releasing sulfur. Effects on Lakes: Kills Fish Effects on Trees: Acidic clouds, acid fog and acid rain are killing the Spruce Fir ecosystems. NC Mountains are severely affected!

  21. NC Ecosystems: NC Coasts • Coastal erosion is the wearing away of land or the removal of beach or dune sediments by wave action, tidal currents, wave currents or drainage. • Beach erosion is increasing due to amount of storms and development on the beach • Prevent it by: • Dune protection • Sand bags

  22. NC Ecosystems: Piedmont • Urban development in the Piedmont leading to habitat destruction and water runoff. • Runoff contains fertilizers, sediment, and brake fluid. • Fertilizers cause algae bloom fish kills • Sediments cause rivers to be turbid and reduce amount of oxygen in the river. • Watershed: All the land that drains into a body of water.

  23. NC Ecosystems • NC is #2 in country for amount of hogs • Hog waste is stored in a hog lagoons on hog farms. • Hog waste is high in nitrates, bacteria, etc. • Hog lagoons can occasionally spill over and runoff into streams and rivers. • Nitrates from hog lagoons can leach into the groundwater and cause health effects. • 3800 open-pit hog waste lagoons are contaminating the state's drinking water.

  24. NC Ecosystems • Kudzu as an invasive plant • Kudzu was introduced to NC to help with stream bank erosion. • Like most exotic invasive species, it has taken over many ecosystems. • Kudzu will cover trees, signs, houses, etc. • Kudzu grows a foot per day and the roots can grow 12 feet deep. • Scientists have not found an effective way to control kudzu.

  25. Protection of natural resources by humans • Explain the impact of humans on natural resources (e.g. resource depletion, deforestation, pesticide use and bioaccumulation ) • Pesticides: Used to kill weeds and insects. Often the chemicals will bio-accumulate in the top predators.

  26. Conservation and Stewardship • Stewardship: Helping to take care of the environment and our natural resources • Conservation: Methods to reduce the amount of water, energy, and other resources. • Example: Turning off the lights or water when not in use. Reuse, Reduce, Recycle

  27. Adaptations: Respiration • Plants excrete water and gases through the stomata. • Respiratory system in some animals: Removes carbon dioxide that is made in respiration and takes in oxygen. • Lungs, bronchi, etc.

  28. Adaptations: Transport and Excretion • Transport and Excretion – how different organisms get what they need to cells; how they move waste from cells to organs of excretion. • Organisms have to maintain balance in pH, salt, and water. • Organisms use buffers to keep the pH neutral. • Protists have contractive vacuoles to control the amount of water.

  29. Excretion • Excretion: Some animals have a urinary tract which regulates water and salt amounts and removes waste.

  30. Circulatory/Respiratory Systems • Circulatory Systems • Open Circulatory system: Blood flows through the animal’s body to each cell. • Closed Circulatory system: Blood flows through blood vessels • Heart: Pumps blood • Not all animals have one • 2 chambered heart: fish • 3 chambered heart: amphibian • 4 chambered heart: mammals

  31. Adaptations: Transport

  32. Adaptations: Nutrition • Feeding adaptations • Teeth • Beaks: Some beaks are better at getting food than other. • Filter feeders • How organisms get nutrition • Autotrophic: Make their food through photosynthesis or chemosynthesis. • Heterotroph: Consumers, decomposers, detritivores • How they break down and absorb foods. • Some organisms have a digestive system.

  33. Adaptations: Reproduction, Growth and Development • – sexual versus asexual, eggs, seeds, spores, placental, types of fertilization.

  34. Reproduction in Vascular Plants

  35. Fertilization: Egg +sperm= zygote • Internal: Mainly done by mammals and birds • External: Male releases 1000 of sperm. Female releases 1000 of eggs and some will join. Example: Fish reproduce this way. Development: Zygote embryo fetus  infant

  36. Behavior • Social Structure: Some insects have queens, kings, and workers • Communication: • Sounds: bird songs • Pheromones: chemical messages : used by ants and termites. • Body language: Ex: Waggle dance of the honey bees tells where the food is. • Courtship : The process used to find a mate such as dances, gifts, songs, etc • Territorial defense : Animals use many methods to protect a territory. • (Example: fighting fish).

  37. Relationships • Predator/prey: The predator eats the prey. When the prey population goes up, the predator population goes up and vice versa. • Competition: Density dependent factor • Limited resources increases competition natural selection • No 2 species can exist on the same resource at the same time. Species do resource partitioning.

  38. Behavior • Behavior that you are born with the ability to do. • Suckling: Animals are born knowing they have to suck to get milk. • Hibernation • Estivation • Migration • Taxis • Behavior that the environment influences • Imprinting: Learning the 1st thing you see is your mother • Habituation • Trial and Error • Conditioning Innate Learned

  39. Innate Behaviors Hibernation: Holing up to avoid the cold Estivation: Holing up to avoid the heat. Migration: Moving to a new home to escape climatic conditions or to find a food source. Taxis: Response to a stimuli Phototaxis: response to light

  40. Learned Behavior Classical Conditioning: Training a reflex: Pavlov trained his dogs to salivate when he rung a bell. Trial and Error Learning: an animal learns to perform a behavior more and more skillfully by repeating behaviors that result in rewards and avoiding behaviors that result in punishment Habituation: decrease in response to a stimuli because you are used to it.

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